The article discusses a breakthrough in atomic-scale magnetic imaging using electron holography. Traditionally, magnetic imaging techniques like electron energy-loss spectroscopy required strong external magnetic fields, which could disrupt the intrinsic magnetic ordering in samples.
The researchers demonstrate that by combining hardware-type aberration correction in electron microscopy with post-digital aberration correction, they were able to directly observe the magnetic fields of individual lattice planes in a ferrimagnetic double-perovskite oxide (Ba2FeMoO6) under magnetic-field-free conditions.
Specifically, they were able to visualize the magnetic phases of the net magnetic moments in the (111) lattice planes, which arise from the opposite spin orderings between Fe3+ and Mo5+ ions. This capability to directly observe the magnetic lattice at the atomic scale, even in non-uniform magnetic structures, opens up new possibilities for studying magnetic properties at interfaces, grain boundaries, and other local areas in a wide range of materials and devices.
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by Toshiaki Tan... às www.nature.com 07-03-2024
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